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Transcript
OBJECTIVES • Know: the structure of ATP • Understand: how ATP can provide energy • Be able to: briefly describe glycolysis, TCA and the Electron transfer chain. • Exam Style Questions. Learning Objectives Success Criteria Understand where glycolysis fits into the overall process of respiration Compare the key stages of aerobic and anaerobic respiration Describe the main stages of glycolysis Accurately describe the chemical reactions at each stage of glycolysis Describe the main products of glycolysis Make a model of the chemical changes that occur in glycolysis ATP (Adenosine triphosphate ) ATP broken down by hydrolysis (requires water) Catalysed by ATPase Breakdown products are ADP and free P group and energy Energy released then used by body Uses of ATP Lactic Acid system This is also referred to anaerobic glycolysis. It can take place in the absence of oxygen. This process involves the breakdown of carbohydrates Is the 2nd fastest way to make ATP. Takes place in the cytoplasm of muscle cells Lactic Acid Cont. Involves the partial breakdown of glucose or glycogen in the absence of O2 By-product of breakdown is pyruvic acid If not enough O2 available to cell, pyruvic acid converted into lactic acid Anaerobic glycolysis - simplified Explanation of Diagram 1 molecule of glucose yields 2 molecules of pyruvic acid Enough energy is released to resynthesise 2 molecules of ATP Glycolysis overview. https://youtu.be/hDq1rhUkV-g https://youtu.be/hDq1rhUkV-g AEROBIC SYSTEM Second Is way to provide energy for ATP re-synthesis the slowest method But produces the most energy Needs oxygen Involves 4 stages in which glucose is eventually Four stages of aerobic glycolysis Aerobic glycolysis Activation of pyruvate to Acetyl CoA TCA/citric acid/Krebs cycle Electron transport/transfer chain video https://youtu.be/-Gb2EzF_XqA Aerobic glycolysis Is the same as anaerobic glycolysis Production of pyruvic acid Enough energy yield to re-synthesise 2 molecules of ATP Pyruvic acid diffuses into matrix of mitochondria for next stage Can take place without oxygen Activation of pyruvate to Acetyl CoA Activation of pyruvate to Acetyl CoA” This drives the pyruvate molecule towards the TCA cycle in the mitochondrion Two molecules of reduced Co-enzyme A are generated VIDEO https://youtu.be/qefvbs_PSC4 TCA/citric acid/Krebs cycle Simplified Krebs cycle Krebs cycle CO2 is produced Oxidation Sufficient takes place (H atoms removed) energy is released to synthesise 2 molecules of ATP VIDEO https://youtu.be/XJiYpa3hwEA Stage 4-Electron Transport chain H atoms produced during stage 2 are carried by coenzymes to cristae of mitochondria Electrons removed from H atoms and are passed along by electron carriers Eventually Energy combine with O and H ions to from water yield from stage 3 enough to re-synthesise Electron Transport chain VIDEO https://youtu.be/j6_e39ueJBo QUESTIONS Can you explain glycolysis and the TCA cycle? Do you know how many Carbon atoms are involved at each stage? What happens to the Hydrogen atoms that are released? Where in the cell does glycolysis occur and where does the TCA cycle occur?
